using System.Data;
using System.Globalization;

namespace Terminal.Gui.Views;

/// <summary>Delegate for providing color to <see cref="TableView"/> cells based on the value being rendered</summary>
/// <param name="args">Contains information about the cell for which color is needed</param>
/// <returns></returns>
public delegate Scheme CellColorGetterDelegate (CellColorGetterArgs args);

/// <summary>Delegate for providing color for a whole row of a <see cref="TableView"/></summary>
/// <param name="args"></param>
/// <returns></returns>
public delegate Scheme RowColorGetterDelegate (RowColorGetterArgs args);

/// <summary>
///     Displays and enables infinite scrolling through tabular data based on a <see cref="ITableSource"/>.
///     <a href="../docs/tableview.md">See the TableView Deep Dive for more</a>.
/// </summary>
public class TableView : View, IDesignable
{
    /// <summary>
    ///     The default maximum cell width for <see cref="TableView.MaxCellWidth"/> and <see cref="ColumnStyle.MaxWidth"/>
    /// </summary>
    public const int DefaultMaxCellWidth = 100;

    /// <summary>The default minimum cell width for <see cref="ColumnStyle.MinAcceptableWidth"/></summary>
    public const int DefaultMinAcceptableWidth = 100;

    // TODO: Update to use Key instead of KeyCode
    private KeyCode cellActivationKey = KeyCode.Enter;
    private int columnOffset;
    private int rowOffset;
    private Point? scrollLeftPoint;
    private Point? scrollRightPoint;
    private int selectedColumn;
    private int selectedRow;
    private TableStyle style = new ();
    private ITableSource table;

    /// <summary>Initializes a <see cref="TableView"/> class.</summary>
    /// <param name="table">The table to display in the control</param>
    public TableView (ITableSource table) : this () { Table = table; }

    /// <summary>
    ///     Initializes a <see cref="TableView"/> class. Set the
    ///     <see cref="Table"/> property to begin editing
    /// </summary>
    public TableView ()
    {
        CanFocus = true;

        CollectionNavigator = new TableCollectionNavigator (this);

        // Things this view knows how to do
        AddCommand (
                    Command.Right,
                    () => ChangeSelectionByOffsetWithReturn (1, 0));

        AddCommand (
                    Command.Left,
                    () => ChangeSelectionByOffsetWithReturn (-1, 0));

        AddCommand (
                    Command.Up,
                    () => ChangeSelectionByOffsetWithReturn (0, -1));

        AddCommand (
                    Command.Down,
                    () => ChangeSelectionByOffsetWithReturn (0, 1));

        AddCommand (
                    Command.PageUp,
                    () =>
                    {
                        PageUp (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.PageDown,
                    () =>
                    {
                        PageDown (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.LeftStart,
                    () =>
                    {
                        ChangeSelectionToStartOfRow (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.RightEnd,
                    () =>
                    {
                        ChangeSelectionToEndOfRow (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.Start,
                    () =>
                    {
                        ChangeSelectionToStartOfTable (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.End,
                    () =>
                    {
                        ChangeSelectionToEndOfTable (false);

                        return true;
                    }
                   );

        AddCommand (
                    Command.RightExtend,
                    () =>
                    {
                        ChangeSelectionByOffset (1, 0, true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.LeftExtend,
                    () =>
                    {
                        ChangeSelectionByOffset (-1, 0, true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.UpExtend,
                    () =>
                    {
                        ChangeSelectionByOffset (0, -1, true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.DownExtend,
                    () =>
                    {
                        ChangeSelectionByOffset (0, 1, true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.PageUpExtend,
                    () =>
                    {
                        PageUp (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.PageDownExtend,
                    () =>
                    {
                        PageDown (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.LeftStartExtend,
                    () =>
                    {
                        ChangeSelectionToStartOfRow (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.RightEndExtend,
                    () =>
                    {
                        ChangeSelectionToEndOfRow (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.StartExtend,
                    () =>
                    {
                        ChangeSelectionToStartOfTable (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.EndExtend,
                    () =>
                    {
                        ChangeSelectionToEndOfTable (true);

                        return true;
                    }
                   );

        AddCommand (
                    Command.SelectAll,
                    () =>
                    {
                        SelectAll ();

                        return true;
                    }
                   );

        AddCommand (Command.Accept, () => OnCellActivated (new (Table, SelectedColumn, SelectedRow)));

        AddCommand (
                    Command.Select, // was Command.ToggleChecked
                    ctx =>
                    {
                        if (ToggleCurrentCellSelection () is true)
                        {
                            return RaiseSelecting (ctx) is true;
                        }

                        return false;
                    }
                   );

        // Default keybindings for this view
        KeyBindings.Add (Key.CursorLeft, Command.Left);
        KeyBindings.Add (Key.CursorRight, Command.Right);
        KeyBindings.Add (Key.CursorUp, Command.Up);
        KeyBindings.Add (Key.CursorDown, Command.Down);
        KeyBindings.Add (Key.PageUp, Command.PageUp);
        KeyBindings.Add (Key.PageDown, Command.PageDown);
        KeyBindings.Add (Key.Home, Command.LeftStart);
        KeyBindings.Add (Key.End, Command.RightEnd);
        KeyBindings.Add (Key.Home.WithCtrl, Command.Start);
        KeyBindings.Add (Key.End.WithCtrl, Command.End);

        KeyBindings.Add (Key.CursorLeft.WithShift, Command.LeftExtend);
        KeyBindings.Add (Key.CursorRight.WithShift, Command.RightExtend);
        KeyBindings.Add (Key.CursorUp.WithShift, Command.UpExtend);
        KeyBindings.Add (Key.CursorDown.WithShift, Command.DownExtend);
        KeyBindings.Add (Key.PageUp.WithShift, Command.PageUpExtend);
        KeyBindings.Add (Key.PageDown.WithShift, Command.PageDownExtend);
        KeyBindings.Add (Key.Home.WithShift, Command.LeftStartExtend);
        KeyBindings.Add (Key.End.WithShift, Command.RightEndExtend);
        KeyBindings.Add (Key.Home.WithCtrl.WithShift, Command.StartExtend);
        KeyBindings.Add (Key.End.WithCtrl.WithShift, Command.EndExtend);

        KeyBindings.Add (Key.A.WithCtrl, Command.SelectAll);
        KeyBindings.Remove (CellActivationKey);
        KeyBindings.Add (CellActivationKey, Command.Accept);
    }

    // TODO: Update to use Key instead of KeyCode
    /// <summary>The key which when pressed should trigger <see cref="CellActivated"/> event.  Defaults to Enter.</summary>
    public KeyCode CellActivationKey
    {
        get => cellActivationKey;
        set
        {
            if (cellActivationKey != value)
            {
                if (KeyBindings.TryGet (cellActivationKey, out _))
                {
                    KeyBindings.Replace (cellActivationKey, value);
                }
                else
                {
                    KeyBindings.Add (value, Command.Accept);
                }

                cellActivationKey = value;
            }
        }
    }

    /// <summary>Navigator for cycling the selected item in the table by typing. Set to null to disable this feature.</summary>
    public ICollectionNavigator CollectionNavigator { get; set; }

    /// <summary>
    ///     Horizontal scroll offset.  The index of the first column in <see cref="Table"/> to display when when rendering
    ///     the view.
    /// </summary>
    /// <remarks>This property allows very wide tables to be rendered with horizontal scrolling</remarks>
    public int ColumnOffset
    {
        get => columnOffset;

        //try to prevent this being set to an out of bounds column
        set
        {
            int prev = columnOffset;
            columnOffset = TableIsNullOrInvisible () ? 0 : Math.Max (0, Math.Min (Table.Columns - 1, value));

            if (prev != columnOffset)
            {
                SetNeedsDraw ();
            }
        }
    }

    /// <summary>True to select the entire row at once.  False to select individual cells.  Defaults to false</summary>
    public bool FullRowSelect { get; set; }

    /// <summary>
    ///     The maximum number of characters to render in any given column.  This prevents one long column from pushing
    ///     out all the others
    /// </summary>
    public int MaxCellWidth { get; set; } = DefaultMaxCellWidth;

    /// <summary>The minimum number of characters to render in any given column.</summary>
    public int MinCellWidth { get; set; }

    /// <summary>True to allow regions to be selected</summary>
    /// <value></value>
    public bool MultiSelect { get; set; } = true;

    /// <summary>
    ///     When <see cref="MultiSelect"/> is enabled this property contain all rectangles of selected cells.  Rectangles
    ///     describe column/rows selected in <see cref="Table"/> (not screen coordinates)
    /// </summary>
    /// <returns></returns>
    public Stack<TableSelection> MultiSelectedRegions { get; } = new ();

    /// <summary>The text representation that should be rendered for cells with the value <see cref="DBNull.Value"/></summary>
    public string NullSymbol { get; set; } = "-";

    /// <summary>
    ///     Vertical scroll offset.  The index of the first row in <see cref="Table"/> to display in the first non header
    ///     line of the control when rendering the view.
    /// </summary>
    public int RowOffset
    {
        get => rowOffset;
        set
        {
            int prev = rowOffset;
            rowOffset = TableIsNullOrInvisible () ? 0 : Math.Max (0, Math.Min (Table.Rows - 1, value));

            if (rowOffset != prev)
            {
                SetNeedsDraw ();
            }
        }
    }

    /// <summary>The index of <see cref="DataTable.Columns"/> in <see cref="Table"/> that the user has currently selected</summary>
    public int SelectedColumn
    {
        get => selectedColumn;
        set
        {
            int oldValue = selectedColumn;

            //try to prevent this being set to an out of bounds column
            selectedColumn = TableIsNullOrInvisible () ? 0 : Math.Min (Table.Columns - 1, Math.Max (0, value));

            if (oldValue != selectedColumn)
            {
                OnSelectedCellChanged (
                                       new (
                                            Table,
                                            oldValue,
                                            SelectedColumn,
                                            SelectedRow,
                                            SelectedRow
                                           )
                                      );
            }
        }
    }

    /// <summary>The index of <see cref="DataTable.Rows"/> in <see cref="Table"/> that the user has currently selected</summary>
    public int SelectedRow
    {
        get => selectedRow;
        set
        {
            int oldValue = selectedRow;

            selectedRow = TableIsNullOrInvisible () ? 0 : Math.Min (Table.Rows - 1, Math.Max (0, value));

            if (oldValue != selectedRow)
            {
                OnSelectedCellChanged (
                                       new (
                                            Table,
                                            SelectedColumn,
                                            SelectedColumn,
                                            oldValue,
                                            selectedRow
                                           )
                                      );
            }
        }
    }

    /// <summary>
    ///     The symbol to add after each cell value and header value to visually separate values (if not using vertical
    ///     gridlines)
    /// </summary>
    public char SeparatorSymbol { get; set; } = ' ';

    /// <summary>Contains options for changing how the table is rendered</summary>
    public TableStyle Style
    {
        get => style;
        set
        {
            style = value;
            Update ();
        }
    }

    /// <summary>The data table to render in the view.  Setting this property automatically updates and redraws the control.</summary>
    public ITableSource Table
    {
        get => table;
        set
        {
            table = value;
            Update ();
        }
    }

    /// <summary>
    ///     This event is raised when a cell is activated e.g. by double-clicking or pressing
    ///     <see cref="CellActivationKey"/>
    /// </summary>
    public event EventHandler<CellActivatedEventArgs> CellActivated;

    /// <summary>This event is raised when a cell is toggled (see <see cref="Command.Select"/></summary>
    public event EventHandler<CellToggledEventArgs> CellToggled;

    /// <summary>
    ///     Returns the screen position (relative to the control client area) that the given cell is rendered or null if
    ///     it is outside the current scroll area or no table is loaded
    /// </summary>
    /// <param name="tableColumn">The index of the <see cref="Table"/> column you are looking for</param>
    /// <param name="tableRow">The index of the row in <see cref="Table"/> that you are looking for</param>
    /// <returns></returns>
    public Point? CellToScreen (int tableColumn, int tableRow)
    {
        if (TableIsNullOrInvisible ())
        {
            return null;
        }

        IEnumerable<ColumnToRender> viewPort = CalculateViewport (Viewport);

        int headerHeight = GetHeaderHeightIfAny ();

        ColumnToRender colHit = viewPort.FirstOrDefault (c => c.Column == tableColumn);

        // current column is outside the scroll area
        if (colHit is null)
        {
            return null;
        }

        // the cell is too far up above the current scroll area
        if (RowOffset > tableRow)
        {
            return null;
        }

        // the cell is way down below the scroll area and off the screen
        if (tableRow > RowOffset + (Viewport.Height - headerHeight))
        {
            return null;
        }

        return new Point (colHit.X, tableRow + headerHeight - RowOffset);
    }

    /// <summary>
    ///     Private override of <see cref="ChangeSelectionByOffset"/> that returns true if the selection has
    ///     changed as a result of moving the selection. Used by key handling logic to determine whether e.g.
    ///     the cursor right resulted in a change or should be forwarded on to toggle logic handling.
    /// </summary>
    /// <param name="offsetX"></param>
    /// <param name="offsetY"></param>
    /// <returns></returns>
    private bool ChangeSelectionByOffsetWithReturn (int offsetX, int offsetY)
    {
        TableViewSelectionSnapshot oldSelection = GetSelectionSnapshot ();
        SetSelection (SelectedColumn + offsetX, SelectedRow + offsetY, false);
        Update ();

        return !SelectionIsSame (oldSelection);
    }

    private TableViewSelectionSnapshot GetSelectionSnapshot ()
    {
        return new (
                    SelectedColumn,
                    SelectedRow,
                    MultiSelectedRegions.Select (s => s.Rectangle).ToArray ());
    }

    private bool SelectionIsSame (TableViewSelectionSnapshot oldSelection)
    {
        TableViewSelectionSnapshot newSelection = GetSelectionSnapshot ();

        return oldSelection.SelectedColumn == newSelection.SelectedColumn
               && oldSelection.SelectedRow == newSelection.SelectedRow
               && oldSelection.multiSelection.SequenceEqual (newSelection.multiSelection);
    }

    private record TableViewSelectionSnapshot (int SelectedColumn, int SelectedRow, Rectangle [] multiSelection);

    /// <summary>
    ///     Moves the <see cref="SelectedRow"/> and <see cref="SelectedColumn"/> by the provided offsets. Optionally
    ///     starting a box selection (see <see cref="MultiSelect"/>)
    /// </summary>
    /// <param name="offsetX">Offset in number of columns</param>
    /// <param name="offsetY">Offset in number of rows</param>
    /// <param name="extendExistingSelection">True to create a multi cell selection or adjust an existing one</param>
    public void ChangeSelectionByOffset (int offsetX, int offsetY, bool extendExistingSelection)
    {
        SetSelection (SelectedColumn + offsetX, SelectedRow + offsetY, extendExistingSelection);
        Update ();
    }

    /// <summary>Moves or extends the selection to the last cell in the current row</summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void ChangeSelectionToEndOfRow (bool extend)
    {
        SetSelection (Table.Columns - 1, SelectedRow, extend);
        Update ();
    }

    /// <summary>
    ///     Moves or extends the selection to the final cell in the table (nX,nY). If <see cref="FullRowSelect"/> is
    ///     enabled then selection instead moves to ( <see cref="SelectedColumn"/>,nY) i.e. no horizontal scrolling.
    /// </summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void ChangeSelectionToEndOfTable (bool extend)
    {
        int finalColumn = Table.Columns - 1;

        SetSelection (FullRowSelect ? SelectedColumn : finalColumn, Table.Rows - 1, extend);
        Update ();
    }

    /// <summary>Moves or extends the selection to the first cell in the current row</summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void ChangeSelectionToStartOfRow (bool extend)
    {
        SetSelection (0, SelectedRow, extend);
        Update ();
    }

    /// <summary>
    ///     Moves or extends the selection to the first cell in the table (0,0). If <see cref="FullRowSelect"/> is enabled
    ///     then selection instead moves to ( <see cref="SelectedColumn"/>,0) i.e. no horizontal scrolling.
    /// </summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void ChangeSelectionToStartOfTable (bool extend)
    {
        SetSelection (FullRowSelect ? SelectedColumn : 0, 0, extend);
        Update ();
    }

    /// <summary>
    ///     Updates scroll offsets to ensure that the selected cell is visible.  Has no effect if <see cref="Table"/> has
    ///     not been set.
    /// </summary>
    /// <remarks>
    ///     Changes will not be immediately visible in the display until you call <see cref="View.SetNeedsDraw()"/>
    /// </remarks>
    public void EnsureSelectedCellIsVisible ()
    {
        if (Table is null || Table.Columns <= 0)
        {
            return;
        }

        ColumnToRender [] columnsToRender = CalculateViewport (Viewport).ToArray ();
        int headerHeight = GetHeaderHeightIfAny ();

        //if we have scrolled too far to the left 
        if (SelectedColumn < columnsToRender.Min (r => r.Column))
        {
            ColumnOffset = SelectedColumn;
        }

        //if we have scrolled too far to the right
        if (SelectedColumn > columnsToRender.Max (r => r.Column))
        {
            if (Style.SmoothHorizontalScrolling)
            {
                // Scroll right 1 column at a time until the users selected column is visible
                while (SelectedColumn > columnsToRender.Max (r => r.Column))
                {
                    ColumnOffset++;
                    columnsToRender = CalculateViewport (Viewport).ToArray ();

                    // if we are already scrolled to the last column then break
                    // this will prevent any theoretical infinite loop
                    if (ColumnOffset >= Table.Columns - 1)
                    {
                        break;
                    }
                }
            }
            else
            {
                ColumnOffset = SelectedColumn;
            }
        }

        //if we have scrolled too far down
        if (SelectedRow >= RowOffset + (Viewport.Height - headerHeight))
        {
            RowOffset = SelectedRow - (Viewport.Height - headerHeight) + 1;
        }

        //if we have scrolled too far up
        if (SelectedRow < RowOffset)
        {
            RowOffset = SelectedRow;
        }
    }

    /// <summary>
    ///     Updates <see cref="ColumnOffset"/> and <see cref="RowOffset"/> where they are outside the bounds of the table
    ///     (by adjusting them to the nearest existing cell).  Has no effect if <see cref="Table"/> has not been set.
    /// </summary>
    /// <remarks>
    ///     Changes will not be immediately visible in the display until you call <see cref="View.SetNeedsDraw()"/>
    /// </remarks>
    public void EnsureValidScrollOffsets ()
    {
        if (TableIsNullOrInvisible ())
        {
            return;
        }

        ColumnOffset = Math.Max (Math.Min (ColumnOffset, Table.Columns - 1), 0);
        RowOffset = Math.Max (Math.Min (RowOffset, Table.Rows - 1), 0);
    }

    /// <summary>
    ///     Updates <see cref="SelectedColumn"/>, <see cref="SelectedRow"/> and <see cref="MultiSelectedRegions"/> where
    ///     they are outside the bounds of the table (by adjusting them to the nearest existing cell).  Has no effect if
    ///     <see cref="Table"/> has not been set.
    /// </summary>
    /// <remarks>
    ///     Changes will not be immediately visible in the display until you call <see cref="View.SetNeedsDraw()"/>
    /// </remarks>
    public void EnsureValidSelection ()
    {
        if (TableIsNullOrInvisible ())
        {
            // Table doesn't exist, we should probably clear those selections
            ClearMultiSelectedRegions (false);

            return;
        }

        SelectedColumn = Math.Max (Math.Min (SelectedColumn, Table.Columns - 1), 0);
        SelectedRow = Math.Max (Math.Min (SelectedRow, Table.Rows - 1), 0);

        // If SelectedColumn is invisible move it to a visible one
        SelectedColumn = GetNearestVisibleColumn (SelectedColumn, true, true);

        IEnumerable<TableSelection> oldRegions = MultiSelectedRegions.ToArray ().Reverse ();

        MultiSelectedRegions.Clear ();

        // evaluate 
        foreach (TableSelection region in oldRegions)
        {
            // ignore regions entirely below current table state
            if (region.Rectangle.Top >= Table.Rows)
            {
                continue;
            }

            // ignore regions entirely too far right of table columns
            if (region.Rectangle.Left >= Table.Columns)
            {
                continue;
            }

            // ensure region's origin exists
            region.Origin = new (
                                 Math.Max (Math.Min (region.Origin.X, Table.Columns - 1), 0),
                                 Math.Max (Math.Min (region.Origin.Y, Table.Rows - 1), 0)
                                );

            // ensure regions do not go over edge of table bounds
            region.Rectangle = Rectangle.FromLTRB (
                                                   region.Rectangle.Left,
                                                   region.Rectangle.Top,
                                                   Math.Max (Math.Min (region.Rectangle.Right, Table.Columns), 0),
                                                   Math.Max (Math.Min (region.Rectangle.Bottom, Table.Rows), 0)
                                                  );

            MultiSelectedRegions.Push (region);
        }
    }

    /// <summary>
    ///     Returns all cells in any <see cref="MultiSelectedRegions"/> (if <see cref="MultiSelect"/> is enabled) and the
    ///     selected cell
    /// </summary>
    /// <returns></returns>
    public IEnumerable<Point> GetAllSelectedCells ()
    {
        if (TableIsNullOrInvisible () || Table.Rows == 0)
        {
            return Enumerable.Empty<Point> ();
        }

        EnsureValidSelection ();

        HashSet<Point> toReturn = new ();

        // If there are one or more rectangular selections
        if (MultiSelect && MultiSelectedRegions.Any ())
        {
            // Quiz any cells for whether they are selected.  For performance we only need to check those between the top left and lower right vertex of selection regions
            int yMin = MultiSelectedRegions.Min (r => r.Rectangle.Top);
            int yMax = MultiSelectedRegions.Max (r => r.Rectangle.Bottom);

            int xMin = FullRowSelect ? 0 : MultiSelectedRegions.Min (r => r.Rectangle.Left);
            int xMax = FullRowSelect ? Table.Columns : MultiSelectedRegions.Max (r => r.Rectangle.Right);

            for (int y = yMin; y < yMax; y++)
            {
                for (int x = xMin; x < xMax; x++)
                {
                    if (IsSelected (x, y))
                    {
                        toReturn.Add (new (x, y));
                    }
                }
            }
        }

        // if there are no region selections then it is just the active cell

        // if we are selecting the full row
        if (FullRowSelect)
        {
            // all cells in active row are selected
            for (var x = 0; x < Table.Columns; x++)
            {
                toReturn.Add (new (x, SelectedRow));
            }
        }
        else
        {
            // Not full row select and no multi selections
            toReturn.Add (new (SelectedColumn, SelectedRow));
        }

        return toReturn;
    }

    /// <summary>
    ///     <para>
    ///         Returns true if the given cell is selected either because it is the active cell or part of a multi cell
    ///         selection (e.g. <see cref="FullRowSelect"/>).
    ///     </para>
    ///     <remarks>Returns <see langword="false"/> if <see cref="ColumnStyle.Visible"/> is <see langword="false"/>.</remarks>
    /// </summary>
    /// <param name="col"></param>
    /// <param name="row"></param>
    /// <returns></returns>
    public bool IsSelected (int col, int row)
    {
        if (!IsColumnVisible (col))
        {
            return false;
        }

        if (GetMultiSelectedRegionsContaining (col, row).Any ())
        {
            return true;
        }

        return row == SelectedRow && (col == SelectedColumn || FullRowSelect);
    }

    ///<inheritdoc/>
    protected override bool OnMouseEvent (MouseEventArgs me)
    {
        if (!me.Flags.HasFlag (MouseFlags.Button1Clicked)
            && !me.Flags.HasFlag (MouseFlags.Button1DoubleClicked)
            && me.Flags != MouseFlags.WheeledDown
            && me.Flags != MouseFlags.WheeledUp
            && me.Flags != MouseFlags.WheeledLeft
            && me.Flags != MouseFlags.WheeledRight)
        {
            return false;
        }

        if (!HasFocus && CanFocus)
        {
            SetFocus ();
        }

        if (TableIsNullOrInvisible ())
        {
            return false;
        }

        // Scroll wheel flags
        switch (me.Flags)
        {
            case MouseFlags.WheeledDown:
                RowOffset++;
                EnsureValidScrollOffsets ();

                //SetNeedsDraw ();

                return true;

            case MouseFlags.WheeledUp:
                RowOffset--;
                EnsureValidScrollOffsets ();

                //SetNeedsDraw ();

                return true;

            case MouseFlags.WheeledRight:
                ColumnOffset++;
                EnsureValidScrollOffsets ();

                //SetNeedsDraw ();

                return true;

            case MouseFlags.WheeledLeft:
                ColumnOffset--;
                EnsureValidScrollOffsets ();

                //SetNeedsDraw ();

                return true;
        }

        int boundsX = me.Position.X;
        int boundsY = me.Position.Y;

        if (me.Flags.HasFlag (MouseFlags.Button1Clicked))
        {
            if (scrollLeftPoint != null
                && scrollLeftPoint.Value.X == boundsX
                && scrollLeftPoint.Value.Y == boundsY)
            {
                ColumnOffset--;
                EnsureValidScrollOffsets ();
                SetNeedsDraw ();
            }

            if (scrollRightPoint != null
                && scrollRightPoint.Value.X == boundsX
                && scrollRightPoint.Value.Y == boundsY)
            {
                ColumnOffset++;
                EnsureValidScrollOffsets ();
                SetNeedsDraw ();
            }

            Point? hit = ScreenToCell (boundsX, boundsY);

            if (hit is { })
            {
                if (MultiSelect && HasControlOrAlt (me))
                {
                    UnionSelection (hit.Value.X, hit.Value.Y);
                }
                else
                {
                    SetSelection (hit.Value.X, hit.Value.Y, me.Flags.HasFlag (MouseFlags.ButtonShift));
                }

                Update ();
            }
        }

        // Double clicking a cell activates
        if (me.Flags == MouseFlags.Button1DoubleClicked)
        {
            Point? hit = ScreenToCell (boundsX, boundsY);

            if (hit is { })
            {
                return OnCellActivated (new (Table, hit.Value.X, hit.Value.Y));
            }
        }

        return me.Handled;
    }

    ///<inheritdoc/>
    protected override bool OnDrawingContent ()
    {
        Move (0, 0);

        scrollRightPoint = null;
        scrollLeftPoint = null;

        // What columns to render at what X offset in viewport
        ColumnToRender [] columnsToRender = CalculateViewport (Viewport).ToArray ();

        SetAttribute (GetAttributeForRole (VisualRole.Normal));

        //invalidate current row (prevents scrolling around leaving old characters in the frame
        AddStr (new (' ', Viewport.Width));

        var line = 0;

        if (ShouldRenderHeaders ())
        {
            // Render something like:
            /*
                ┌────────────────────┬──────────┬───────────┬──────────────┬─────────┐
                │ArithmeticComparator│chi       │Healthboard│Interpretation│Labnumber│
                └────────────────────┴──────────┴───────────┴──────────────┴─────────┘
            */
            if (Style.ShowHorizontalHeaderOverline)
            {
                RenderHeaderOverline (line, Viewport.Width, columnsToRender);
                line++;
            }

            if (Style.ShowHeaders)
            {
                RenderHeaderMidline (line, columnsToRender);
                line++;
            }

            if (Style.ShowHorizontalHeaderUnderline)
            {
                RenderHeaderUnderline (line, Viewport.Width, columnsToRender);
                line++;
            }
        }

        int headerLinesConsumed = line;

        //render the cells
        for (; line < Viewport.Height; line++)
        {
            ClearLine (line, Viewport.Width);

            //work out what Row to render
            int rowToRender = RowOffset + (line - headerLinesConsumed);

            //if we have run off the end of the table
            if (TableIsNullOrInvisible () || rowToRender < 0)
            {
                continue;
            }

            // No more data
            if (rowToRender >= Table.Rows)
            {
                if (rowToRender == Table.Rows && Style.ShowHorizontalBottomline)
                {
                    RenderBottomLine (line, Viewport.Width, columnsToRender);
                }

                continue;
            }

            RenderRow (line, rowToRender, columnsToRender);
        }

        return true;
    }

    /// <inheritdoc/>
    protected override bool OnKeyDown (Key key)
    {
        if (TableIsNullOrInvisible ())
        {
            return false;
        }

        // If the key was bound to key command, let normal KeyDown processing happen. This enables overriding the default handling.
        // See: https://github.com/gui-cs/Terminal.Gui/issues/3950#issuecomment-2807350939
        if (KeyBindings.TryGet (key, out _))
        {
            return false;
        }

        if (CollectionNavigator != null
            && HasFocus
            && Table.Rows != 0
            && key != KeyBindings.GetFirstFromCommands (Command.Accept)
            && key != CellActivationKey
            && CollectionNavigator.Matcher.IsCompatibleKey (key)
            && !key.KeyCode.HasFlag (KeyCode.CtrlMask)
            && !key.KeyCode.HasFlag (KeyCode.AltMask)
            && Rune.IsLetterOrDigit ((Rune)key))
        {
            return CycleToNextTableEntryBeginningWith (key);
        }

        return false;
    }

    /// <summary>Moves the selection down by one page</summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void PageDown (bool extend)
    {
        ChangeSelectionByOffset (0, Viewport.Height - GetHeaderHeightIfAny (), extend);
        Update ();
    }

    /// <summary>Moves the selection up by one page</summary>
    /// <param name="extend">true to extend the current selection (if any) instead of replacing</param>
    public void PageUp (bool extend)
    {
        ChangeSelectionByOffset (0, -(Viewport.Height - GetHeaderHeightIfAny ()), extend);
        Update ();
    }

    /// <summary>
    ///     Positions the cursor in the area of the screen in which the start of the active cell is rendered.  Calls base
    ///     implementation if active cell is not visible due to scrolling or table is loaded etc
    /// </summary>
    public override Point? PositionCursor ()
    {
        if (TableIsNullOrInvisible ())
        {
            return base.PositionCursor ();
        }

        Point? screenPoint = CellToScreen (SelectedColumn, SelectedRow);

        if (screenPoint is { })
        {
            Move (screenPoint.Value.X, screenPoint.Value.Y);

            return null; //screenPoint;
        }

        return null;
    }

    /// <summary>
    ///     Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="clientX">X offset from the top left of the control.</param>
    /// <param name="clientY">Y offset from the top left of the control.</param>
    /// <returns>Cell clicked or null.</returns>
    public Point? ScreenToCell (int clientX, int clientY) { return ScreenToCell (clientX, clientY, out _, out _); }

    /// <summary>
    ///     Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="client">offset from the top left of the control.</param>
    /// <returns>The position.</returns>
    public Point? ScreenToCell (Point client) { return ScreenToCell (client, out _, out _); }

    /// <summary>
    ///     . Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="clientX">X offset from the top left of the control.</param>
    /// <param name="clientY">Y offset from the top left of the control.</param>
    /// <param name="headerIfAny">If the click is in a header this is the column clicked.</param>
    public Point? ScreenToCell (int clientX, int clientY, out int? headerIfAny) { return ScreenToCell (clientX, clientY, out headerIfAny, out _); }

    /// <summary>
    ///     Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="client">offset from the top left of the control.</param>
    /// <param name="headerIfAny">If the click is in a header this is the column clicked.</param>
    public Point? ScreenToCell (Point client, out int? headerIfAny) { return ScreenToCell (client, out headerIfAny, out _); }

    /// <summary>
    ///     Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="clientX">X offset from the top left of the control.</param>
    /// <param name="clientY">Y offset from the top left of the control.</param>
    /// <param name="headerIfAny">If the click is in a header this is the column clicked.</param>
    /// <param name="offsetX">The horizontal offset of the click within the returned cell.</param>
    public Point? ScreenToCell (int clientX, int clientY, out int? headerIfAny, out int? offsetX)
    {
        headerIfAny = null;
        offsetX = null;

        if (TableIsNullOrInvisible ())
        {
            return null;
        }

        IEnumerable<ColumnToRender> viewPort = CalculateViewport (Viewport);

        int headerHeight = GetHeaderHeightIfAny ();

        ColumnToRender col = viewPort.LastOrDefault (c => c.X <= clientX);

        // Click is on the header section of rendered UI
        if (clientY < headerHeight)
        {
            headerIfAny = col?.Column;
            offsetX = col is { } ? clientX - col.X : null;

            return null;
        }

        int rowIdx = RowOffset - headerHeight + clientY;

        // if click is off bottom of the rows don't give an
        // invalid index back to user!
        if (rowIdx >= Table.Rows)
        {
            return null;
        }

        if (col is { } && rowIdx >= 0)
        {
            offsetX = clientX - col.X;

            return new Point (col.Column, rowIdx);
        }

        return null;
    }

    /// <summary>
    ///     Returns the column and row of <see cref="Table"/> that corresponds to a given point on the screen (relative
    ///     to the control client area).  Returns null if the point is in the header, no table is loaded or outside the control
    ///     bounds.
    /// </summary>
    /// <param name="client">offset from the top left of the control.</param>
    /// <param name="headerIfAny">If the click is in a header this is the column clicked.</param>
    /// <param name="offsetX">The horizontal offset of the click within the returned cell.</param>
    public Point? ScreenToCell (Point client, out int? headerIfAny, out int? offsetX)
    {
        return ScreenToCell (client.X, client.Y, out headerIfAny, out offsetX);
    }

    /// <summary>
    ///     When <see cref="MultiSelect"/> is on, creates selection over all cells in the table (replacing any old
    ///     selection regions)
    /// </summary>
    public void SelectAll ()
    {
        if (TableIsNullOrInvisible () || !MultiSelect || Table.Rows == 0)
        {
            return;
        }

        ClearMultiSelectedRegions (true);

        // Create a single region over entire table, set the origin of the selection to the active cell so that a followup spread selection e.g. shift-right behaves properly
        MultiSelectedRegions.Push (
                                   new (
                                        new (SelectedColumn, SelectedRow),
                                        new (0, 0, Table.Columns, table.Rows)
                                       )
                                  );
        Update ();
    }

    /// <summary>This event is raised when the selected cell in the table changes.</summary>
    public event EventHandler<SelectedCellChangedEventArgs> SelectedCellChanged;

    /// <summary>
    ///     Moves the <see cref="SelectedRow"/> and <see cref="SelectedColumn"/> to the given col/row in
    ///     <see cref="Table"/>. Optionally starting a box selection (see <see cref="MultiSelect"/>)
    /// </summary>
    /// <param name="col"></param>
    /// <param name="row"></param>
    /// <param name="extendExistingSelection">True to create a multi cell selection or adjust an existing one</param>
    public void SetSelection (int col, int row, bool extendExistingSelection)
    {
        // if we are trying to increase the column index then
        // we are moving right otherwise we are moving left
        bool lookRight = col > selectedColumn;

        col = GetNearestVisibleColumn (col, lookRight, true);

        if (!MultiSelect || !extendExistingSelection)
        {
            ClearMultiSelectedRegions (true);
        }

        if (extendExistingSelection)
        {
            // If we are extending current selection but there isn't one
            if (MultiSelectedRegions.Count == 0 || MultiSelectedRegions.All (m => m.IsToggled))
            {
                // Create a new region between the old active cell and the new cell
                TableSelection rect = CreateTableSelection (SelectedColumn, SelectedRow, col, row);
                MultiSelectedRegions.Push (rect);
            }
            else
            {
                // Extend the current head selection to include the new cell
                TableSelection head = MultiSelectedRegions.Pop ();
                TableSelection newRect = CreateTableSelection (head.Origin.X, head.Origin.Y, col, row);
                MultiSelectedRegions.Push (newRect);
            }
        }

        SelectedColumn = col;
        SelectedRow = row;
    }

    /// <summary>
    ///     Updates the view to reflect changes to <see cref="Table"/> and to (<see cref="ColumnOffset"/> /
    ///     <see cref="RowOffset"/>) etc
    /// </summary>
    /// <remarks>This always calls <see cref="View.SetNeedsDraw()"/></remarks>
    public void Update ()
    {
        if (!IsInitialized || TableIsNullOrInvisible ())
        {
            SetNeedsDraw ();

            return;
        }

        EnsureValidScrollOffsets ();
        EnsureValidSelection ();

        EnsureSelectedCellIsVisible ();

        SetNeedsDraw ();
    }

    /// <summary>Invokes the <see cref="CellActivated"/> event</summary>
    /// <param name="args"></param>
    /// <returns><see langword="true"/> if the CellActivated event was raised.</returns>
    protected virtual bool OnCellActivated (CellActivatedEventArgs args)
    {
        CellActivated?.Invoke (this, args);

        return CellActivated is { };
    }

    /// <summary>Invokes the <see cref="CellToggled"/> event</summary>
    /// <param name="args"></param>
    protected virtual void OnCellToggled (CellToggledEventArgs args) { CellToggled?.Invoke (this, args); }

    /// <summary>Invokes the <see cref="SelectedCellChanged"/> event</summary>
    protected virtual void OnSelectedCellChanged (SelectedCellChangedEventArgs args) { SelectedCellChanged?.Invoke (this, args); }

    /// <summary>
    ///     Override to provide custom multi-coloring to cells. Use methods like <see cref="View.AddStr(string)"/>.
    ///     The cursor will already be in the correct position when rendering. You must render the full
    ///     <paramref name="render"/> or the view will not look right. For simpler color provision use
    ///     <see cref="ColumnStyle.ColorGetter"/>. For changing the content that is rendered use
    ///     <see cref="ColumnStyle.RepresentationGetter"/>.
    /// </summary>
    /// <param name="cellAttribute"></param>
    /// <param name="render"></param>
    /// <param name="isPrimaryCell"></param>
    protected virtual void RenderCell (Attribute cellAttribute, string render, bool isPrimaryCell)
    {
        // If the cell is the selected col/row then draw the first rune in inverted colors
        // this allows the user to track which cell is the active one during a multi cell
        // selection or in full row select mode
        if (Style.InvertSelectedCellFirstCharacter && isPrimaryCell)
        {
            if (render.Length > 0)
            {
                // invert the color of the current cell for the first character
                SetAttribute (new (cellAttribute.Foreground, cellAttribute.Background, TextStyle.Reverse));
                AddRune ((Rune)render [0]);

                if (render.Length > 1)
                {
                    SetAttribute (cellAttribute);
                    AddStr (render.Substring (1));
                }
            }
        }
        else
        {
            SetAttribute (cellAttribute);
            AddStr (render);
        }
    }

    /// <summary>Returns the amount of vertical space required to display the header</summary>
    /// <returns></returns>
    internal int GetHeaderHeight ()
    {
        int heightRequired = Style.ShowHeaders ? 1 : 0;

        if (Style.ShowHorizontalHeaderOverline)
        {
            heightRequired++;
        }

        if (Style.ShowHorizontalHeaderUnderline)
        {
            heightRequired++;
        }

        return heightRequired;
    }

    /// <summary>Returns the amount of vertical space currently occupied by the header or 0 if it is not visible.</summary>
    /// <returns></returns>
    internal int GetHeaderHeightIfAny () { return ShouldRenderHeaders () ? GetHeaderHeight () : 0; }

    private void AddRuneAt (int col, int row, Rune ch)
    {
        Move (col, row);
        AddRune (ch);
    }

    /// <summary>
    ///     Returns the maximum of the <paramref name="col"/> name and the maximum length of data that will be rendered
    ///     starting at <see cref="RowOffset"/> and rendering <paramref name="rowsToRender"/>
    /// </summary>
    /// <param name="col"></param>
    /// <param name="rowsToRender"></param>
    /// <param name="colStyle"></param>
    /// <returns></returns>
    private int CalculateMaxCellWidth (int col, int rowsToRender, ColumnStyle colStyle)
    {
        int spaceRequired = table.ColumnNames [col].EnumerateRunes ().Sum (c => c.GetColumns ());

        // if table has no rows
        if (RowOffset < 0)
        {
            return spaceRequired;
        }

        for (int i = RowOffset; i < RowOffset + rowsToRender && i < Table.Rows; i++)
        {
            //expand required space if cell is bigger than the last biggest cell or header
            spaceRequired = Math.Max (
                                      spaceRequired,
                                      GetRepresentation (Table [i, col], colStyle)
                                          .EnumerateRunes ()
                                          .Sum (c => c.GetColumns ())
                                     );
        }

        // Don't require more space than the style allows
        if (colStyle is { })
        {
            // enforce maximum cell width based on style
            if (spaceRequired > colStyle.MaxWidth)
            {
                spaceRequired = colStyle.MaxWidth;
            }

            // enforce minimum cell width based on style
            if (spaceRequired < colStyle.MinWidth)
            {
                spaceRequired = colStyle.MinWidth;
            }
        }

        // enforce maximum cell width based on global table style
        if (spaceRequired > MaxCellWidth)
        {
            spaceRequired = MaxCellWidth;
        }

        return spaceRequired;
    }

    /// <summary>
    ///     Calculates which columns should be rendered given the <paramref name="bounds"/> in which to display and the
    ///     <see cref="ColumnOffset"/>
    /// </summary>
    /// <param name="bounds"></param>
    /// <param name="padding"></param>
    /// <returns></returns>
    private IEnumerable<ColumnToRender> CalculateViewport (Rectangle bounds, int padding = 1)
    {
        if (TableIsNullOrInvisible ())
        {
            return Enumerable.Empty<ColumnToRender> ();
        }

        List<ColumnToRender> toReturn = new ();
        var usedSpace = 0;

        //if horizontal space is required at the start of the line (before the first header)
        if (Style.ShowVerticalHeaderLines || Style.ShowVerticalCellLines)
        {
            usedSpace += 1;
        }

        int availableHorizontalSpace = bounds.Width;
        int rowsToRender = bounds.Height;

        // reserved for the headers row
        if (ShouldRenderHeaders ())
        {
            rowsToRender -= GetHeaderHeight ();
        }

        var first = true;
        int lastColumn = Table.Columns - 1;

        // TODO : Maybe just a for loop?
        foreach (int col in Enumerable.Range (0, Table.Columns).Skip (ColumnOffset))
        {
            int startingIdxForCurrentHeader = usedSpace;
            ColumnStyle colStyle = Style.GetColumnStyleIfAny (col);
            int colWidth;

            // if column is not being rendered
            if (colStyle?.Visible == false)
            {
                // do not add it to the returned columns
                continue;
            }

            // is there enough space for this column (and it's data)?
            colWidth = CalculateMaxCellWidth (col, rowsToRender, colStyle) + padding;

            if (MinCellWidth > 0 && colWidth < MinCellWidth + padding)
            {
                if (MinCellWidth > MaxCellWidth)
                {
                    colWidth = MaxCellWidth + padding;
                }
                else
                {
                    colWidth = MinCellWidth + padding;
                }
            }

            // there is not enough space for this columns 
            // visible content
            if (usedSpace + colWidth > availableHorizontalSpace)
            {
                var showColumn = false;

                // if this column accepts flexible width rendering and
                // is therefore happy rendering into less space
                if (colStyle != null
                    && colStyle.MinAcceptableWidth > 0
                    &&

                    // is there enough space to meet the MinAcceptableWidth
                    availableHorizontalSpace - usedSpace >= colStyle.MinAcceptableWidth)
                {
                    // show column and use whatever space is
                    // left for rendering it
                    showColumn = true;
                    colWidth = availableHorizontalSpace - usedSpace;
                }

                // If it's the only column we are able to render then
                // accept it anyway (that must be one massively wide column!)
                if (first)
                {
                    showColumn = true;
                }

                // no special exceptions and we are out of space
                // so stop accepting new columns for the render area
                if (!showColumn)
                {
                    break;
                }
            }

            usedSpace += colWidth;

            // required for if we end up here because first == true i.e. we have a single massive width (overspilling bounds) column to present
            colWidth = Math.Min (availableHorizontalSpace, colWidth);
            bool isVeryLast = lastColumn == col;

            // there is space
            toReturn.Add (new (col, startingIdxForCurrentHeader, colWidth, isVeryLast));
            first = false;
        }

        if (Style.ExpandLastColumn)
        {
            ColumnToRender last = toReturn.Last ();
            last.Width = Math.Max (last.Width, availableHorizontalSpace - last.X);
        }

        return toReturn;
    }

    /// <summary>Clears a line of the console by filling it with spaces</summary>
    /// <param name="row"></param>
    /// <param name="width"></param>
    private void ClearLine (int row, int width)
    {
        if (Application.Screen.Height == 0)
        {
            return;
        }

        Move (0, row);
        SetAttribute (GetAttributeForRole (VisualRole.Normal));
        AddStr (new (' ', width));
    }

    private void ClearMultiSelectedRegions (bool keepToggledSelections)
    {
        if (!keepToggledSelections)
        {
            MultiSelectedRegions.Clear ();

            return;
        }

        IEnumerable<TableSelection> oldRegions = MultiSelectedRegions.ToArray ().Reverse ();

        MultiSelectedRegions.Clear ();

        foreach (TableSelection region in oldRegions)
        {
            if (region.IsToggled)
            {
                MultiSelectedRegions.Push (region);
            }
        }
    }

    /// <summary>
    ///     Returns a new rectangle between the two points with positive width/height regardless of relative positioning
    ///     of the points.  pt1 is always considered the <see cref="TableSelection.Origin"/> point
    /// </summary>
    /// <param name="pt1X">Origin point for the selection in X</param>
    /// <param name="pt1Y">Origin point for the selection in Y</param>
    /// <param name="pt2X">End point for the selection in X</param>
    /// <param name="pt2Y">End point for the selection in Y</param>
    /// <param name="toggle">True if selection is result of <see cref="Command.Select"/></param>
    /// <returns></returns>
    private TableSelection CreateTableSelection (int pt1X, int pt1Y, int pt2X, int pt2Y, bool toggle = false)
    {
        int top = Math.Max (Math.Min (pt1Y, pt2Y), 0);
        int bot = Math.Max (Math.Max (pt1Y, pt2Y), 0);

        int left = Math.Max (Math.Min (pt1X, pt2X), 0);
        int right = Math.Max (Math.Max (pt1X, pt2X), 0);

        // Rect class is inclusive of Top Left but exclusive of Bottom Right so extend by 1
        return new (new (pt1X, pt1Y), new (left, top, right - left + 1, bot - top + 1))
        {
            IsToggled = toggle
        };
    }

    /// <summary>Returns a single point as a <see cref="TableSelection"/></summary>
    /// <param name="x"></param>
    /// <param name="y"></param>
    /// <returns></returns>
    private TableSelection CreateTableSelection (int x, int y) { return CreateTableSelection (x, y, x, y); }

    private bool CycleToNextTableEntryBeginningWith (Key key)
    {
        int row = SelectedRow;

        // There is a multi select going on and not just for the current row
        if (GetAllSelectedCells ().Any (c => c.Y != row))
        {
            return false;
        }

        int match = CollectionNavigator.GetNextMatchingItem (row, (char)key);

        if (match != -1)
        {
            SelectedRow = match;
            EnsureValidSelection ();
            EnsureSelectedCellIsVisible ();
            SetNeedsDraw ();

            return true;
        }

        return false;
    }

    private IEnumerable<TableSelection> GetMultiSelectedRegionsContaining (int col, int row)
    {
        if (!MultiSelect)
        {
            return Enumerable.Empty<TableSelection> ();
        }

        if (FullRowSelect)
        {
            return MultiSelectedRegions.Where (r => r.Rectangle.Bottom > row && r.Rectangle.Top <= row);
        }

        return MultiSelectedRegions.Where (r => r.Rectangle.Contains (col, row));
    }

    /// <summary>
    ///     Returns <paramref name="columnIndex"/> unless the <see cref="ColumnStyle.Visible"/> is false for the indexed
    ///     column.  If so then the index returned is nudged to the nearest visible column.
    /// </summary>
    /// <remarks>Returns <paramref name="columnIndex"/> unchanged if it is invalid (e.g. out of bounds).</remarks>
    /// <param name="columnIndex">The input column index.</param>
    /// <param name="lookRight">
    ///     When nudging invisible selections look right first. <see langword="true"/> to look right,
    ///     <see langword="false"/> to look left.
    /// </param>
    /// <param name="allowBumpingInOppositeDirection">
    ///     If we cannot find anything visible when looking in direction of
    ///     <paramref name="lookRight"/> then should we look in the opposite direction instead? Use true if you want to push a
    ///     selection to a valid index no matter what. Use false if you are primarily interested in learning about directional
    ///     column visibility.
    /// </param>
    private int GetNearestVisibleColumn (int columnIndex, bool lookRight, bool allowBumpingInOppositeDirection)
    {
        if (TryGetNearestVisibleColumn (columnIndex, lookRight, allowBumpingInOppositeDirection, out int answer))
        {
            return answer;
        }

        return columnIndex;
    }

    /// <summary>
    ///     Returns the value that should be rendered to best represent a strongly typed <paramref name="value"/> read
    ///     from <see cref="Table"/>
    /// </summary>
    /// <param name="value"></param>
    /// <param name="colStyle">Optional style defining how to represent cell values</param>
    /// <returns></returns>
    private string GetRepresentation (object value, ColumnStyle colStyle)
    {
        if (value is null || value == DBNull.Value)
        {
            return NullSymbol;
        }

        return colStyle is { } ? colStyle.GetRepresentation (value) : value.ToString ();
    }

    private bool HasControlOrAlt (MouseEventArgs me) { return me.Flags.HasFlag (MouseFlags.ButtonAlt) || me.Flags.HasFlag (MouseFlags.ButtonCtrl); }

    /// <summary>
    ///     Returns true if the given <paramref name="columnIndex"/> indexes a visible column otherwise false.  Returns
    ///     false for indexes that are out of bounds.
    /// </summary>
    /// <param name="columnIndex"></param>
    /// <returns></returns>
    private bool IsColumnVisible (int columnIndex)
    {
        // if the column index provided is out of bounds
        if (columnIndex < 0 || columnIndex >= table.Columns)
        {
            return false;
        }

        return Style.GetColumnStyleIfAny (columnIndex)?.Visible ?? true;
    }

    private void RenderBottomLine (int row, int availableWidth, ColumnToRender [] columnsToRender)
    {
        // Renders a line at the bottom of the table after all the data like:
        // └─────────────────────────────────┴──────────┴──────┴──────────┴────────┴────────────────────────────────────────────┘

        for (var c = 0; c < availableWidth; c++)
        {
            // Start by assuming we just draw a straight line the
            // whole way but update to instead draw BottomTee / Corner etc
            Rune rune = Glyphs.HLine;

            if (Style.ShowVerticalCellLines)
            {
                if (c == 0)
                {
                    // for first character render line
                    rune = Glyphs.LLCorner;
                }
                else if (columnsToRender.Any (r => r.X == c + 1))
                {
                    // if the next column is the start of a header
                    rune = Glyphs.BottomTee;
                }
                else if (c == availableWidth - 1)
                {
                    // for the last character in the table
                    rune = Glyphs.LRCorner;
                }
                else if (Style.ExpandLastColumn == false && columnsToRender.Any (r => r.IsVeryLast && r.X + r.Width - 1 == c))
                {
                    // if the next console column is the last column's end
                    rune = Glyphs.BottomTee;
                }
            }

            AddRuneAt (c, row, rune);
        }
    }

    private void RenderHeaderMidline (int row, ColumnToRender [] columnsToRender)
    {
        // Renders something like:
        // │ArithmeticComparator│chi       │Healthboard│Interpretation│Labnumber│

        ClearLine (row, Viewport.Width);

        //render start of line
        if (style.ShowVerticalHeaderLines)
        {
            AddRune (0, row, Glyphs.VLine);
        }

        for (var i = 0; i < columnsToRender.Length; i++)
        {
            ColumnToRender current = columnsToRender [i];

            ColumnStyle colStyle = Style.GetColumnStyleIfAny (current.Column);
            string colName = table.ColumnNames [current.Column];

            RenderSeparator (current.X - 1, row, true);

            Move (current.X, row);

            AddStr (TruncateOrPad (colName, colName, current.Width, colStyle));

            if (Style.ExpandLastColumn == false && current.IsVeryLast)
            {
                RenderSeparator (current.X + current.Width - 1, row, true);
            }
        }

        //render end of line
        if (style.ShowVerticalHeaderLines)
        {
            AddRune (Viewport.Width - 1, row, Glyphs.VLine);
        }
    }

    private void RenderHeaderOverline (int row, int availableWidth, ColumnToRender [] columnsToRender)
    {
        // Renders a line above table headers (when visible) like:
        // ┌────────────────────┬──────────┬───────────┬──────────────┬─────────┐

        for (var c = 0; c < availableWidth; c++)
        {
            Rune rune = Glyphs.HLine;

            if (Style.ShowVerticalHeaderLines)
            {
                if (c == 0)
                {
                    rune = Glyphs.ULCorner;
                }

                // if the next column is the start of a header
                else if (columnsToRender.Any (r => r.X == c + 1))
                {
                    rune = Glyphs.TopTee;
                }
                else if (c == availableWidth - 1)
                {
                    rune = Glyphs.URCorner;
                }

                // if the next console column is the last column's end
                else if (Style.ExpandLastColumn == false && columnsToRender.Any (r => r.IsVeryLast && r.X + r.Width - 1 == c))
                {
                    rune = Glyphs.TopTee;
                }
            }

            if (Application.Screen.Height > 0)
            {
                AddRuneAt (c, row, rune);
            }
        }
    }

    private void RenderHeaderUnderline (int row, int availableWidth, ColumnToRender [] columnsToRender)
    {
        /*
         *  First lets work out if we should be rendering scroll indicators
         */

        // are there are visible columns to the left that have been pushed
        // off the screen due to horizontal scrolling?
        bool moreColumnsToLeft = ColumnOffset > 0;

        // if we moved left would we find a new column (or are they all invisible?)
        if (!TryGetNearestVisibleColumn (ColumnOffset - 1, false, false, out _))
        {
            moreColumnsToLeft = false;
        }

        // are there visible columns to the right that have not yet been reached?
        // lets find out, what is the column index of the last column we are rendering
        int lastColumnIdxRendered = ColumnOffset + columnsToRender.Length - 1;

        // are there more valid indexes?
        bool moreColumnsToRight = lastColumnIdxRendered < Table.Columns;

        // if we went right from the last column would we find a new visible column?
        if (!TryGetNearestVisibleColumn (lastColumnIdxRendered + 1, true, false, out _))
        {
            // no we would not
            moreColumnsToRight = false;
        }

        /*
         *  Now lets draw the line itself
         */

        // Renders a line below the table headers (when visible) like:
        // ├──────────┼───────────┼───────────────────┼──────────┼────────┼─────────────┤

        for (var c = 0; c < availableWidth; c++)
        {
            // Start by assuming we just draw a straight line the
            // whole way but update to instead draw a header indicator
            // or scroll arrow etc
            Rune rune = Glyphs.HLine;

            if (Style.ShowVerticalHeaderLines)
            {
                if (c == 0)
                {
                    // for first character render line
                    rune = Style.ShowVerticalCellLines ? Glyphs.LeftTee : Glyphs.LLCorner;

                    // unless we have horizontally scrolled along
                    // in which case render an arrow, to indicate user
                    // can scroll left
                    if (Style.ShowHorizontalScrollIndicators && moreColumnsToLeft)
                    {
                        rune = Glyphs.LeftArrow;
                        scrollLeftPoint = new Point (c, row);
                    }
                }

                // if the next column is the start of a header
                else if (columnsToRender.Any (r => r.X == c + 1))
                {
                    /*TODO: is ┼ symbol in Driver?*/
                    rune = Style.ShowVerticalCellLines ? Glyphs.Cross : Glyphs.BottomTee;
                }
                else if (c == availableWidth - 1)
                {
                    // for the last character in the table
                    rune = Style.ShowVerticalCellLines ? Glyphs.RightTee : Glyphs.LRCorner;

                    // unless there is more of the table we could horizontally
                    // scroll along to see. In which case render an arrow,
                    // to indicate user can scroll right
                    if (Style.ShowHorizontalScrollIndicators && moreColumnsToRight)
                    {
                        rune = Glyphs.RightArrow;
                        scrollRightPoint = new Point (c, row);
                    }
                }

                // if the next console column is the last column's end
                else if (Style.ExpandLastColumn == false && columnsToRender.Any (r => r.IsVeryLast && r.X + r.Width - 1 == c))
                {
                    rune = Style.ShowVerticalCellLines ? Glyphs.Cross : Glyphs.BottomTee;
                }
            }

            AddRuneAt (c, row, rune);
        }
    }

    private void RenderRow (int row, int rowToRender, ColumnToRender [] columnsToRender)
    {
        bool focused = HasFocus;

        Scheme rowScheme = Style.RowColorGetter?.Invoke (
                                                         new (Table, rowToRender)
                                                        )
                           ?? GetScheme ();

        //start by clearing the entire line
        Move (0, row);

        Attribute? attribute;

        if (FullRowSelect && IsSelected (0, rowToRender))
        {
            attribute = focused ? rowScheme?.Focus : rowScheme?.Active;
        }
        else
        {
            attribute = Enabled ? rowScheme?.Normal : rowScheme?.Active;
        }

        SetAttribute (attribute.Value);
        AddStr (new (' ', Viewport.Width));

        // Render cells for each visible header for the current row
        for (var i = 0; i < columnsToRender.Length; i++)
        {
            ColumnToRender current = columnsToRender [i];

            ColumnStyle colStyle = Style.GetColumnStyleIfAny (current.Column);

            // move to start of cell (in line with header positions)
            Move (current.X, row);

            // Set scheme based on whether the current cell is the selected one
            bool isSelectedCell = IsSelected (current.Column, rowToRender);

            object val = Table [rowToRender, current.Column];

            // Render the (possibly truncated) cell value
            string representation = GetRepresentation (val, colStyle);

            // to get the colour scheme
            CellColorGetterDelegate schemeGetter = colStyle?.ColorGetter;

            Scheme scheme;

            if (schemeGetter is { })
            {
                // user has a delegate for defining row color per cell, call it
                scheme = schemeGetter (
                                       new (
                                            Table,
                                            rowToRender,
                                            current.Column,
                                            val,
                                            representation,
                                            rowScheme
                                           )
                                      );

                // if users custom color getter returned null, use the row scheme
                if (scheme is null)
                {
                    scheme = rowScheme;
                }
            }
            else
            {
                // There is no custom cell coloring delegate so use the scheme for the row
                scheme = rowScheme;
            }

            Attribute? cellColor;

            if (isSelectedCell)
            {
                cellColor = focused ? scheme?.Focus : scheme?.Active;
            }
            else
            {
                cellColor = Enabled ? scheme?.Normal : scheme?.Disabled;
            }

            string render = TruncateOrPad (val, representation, current.Width, colStyle);

            // While many cells can be selected (see MultiSelectedRegions) only one cell is the primary (drives navigation etc)
            bool isPrimaryCell = current.Column == selectedColumn && rowToRender == selectedRow;

            if (cellColor.HasValue)
            {
                RenderCell (cellColor.Value, render, isPrimaryCell);
            }

            // Reset scheme to normal for drawing separators if we drew text with custom scheme
            if (scheme != rowScheme)
            {
                if (isSelectedCell)
                {
                    attribute = focused ? rowScheme.Focus : rowScheme.Active;
                }
                else
                {
                    attribute = Enabled ? rowScheme.Normal : rowScheme.Disabled;
                }

                SetAttribute (attribute.Value);
            }

            // If not in full row select mode always, reset scheme to normal and render the vertical line (or space) at the end of the cell
            if (!FullRowSelect)
            {
                if (rowScheme is { })
                {
                    SetAttribute (Enabled ? rowScheme.Normal : rowScheme.Disabled);
                }
            }

            if (style.AlwaysUseNormalColorForVerticalCellLines && style.ShowVerticalCellLines)
            {
                if (rowScheme is { })
                {
                    SetAttribute (rowScheme.Normal);
                }
            }

            RenderSeparator (current.X - 1, row, false);

            if (Style.ExpandLastColumn == false && current.IsVeryLast)
            {
                RenderSeparator (current.X + current.Width - 1, row, false);
            }
        }

        if (style.ShowVerticalCellLines)
        {
            if (rowScheme is { })
            {
                SetAttribute (rowScheme.Normal);
            }

            //render start and end of line
            AddRune (0, row, Glyphs.VLine);
            AddRune (Viewport.Width - 1, row, Glyphs.VLine);
        }
    }

    private void RenderSeparator (int col, int row, bool isHeader)
    {
        if (col < 0)
        {
            return;
        }

        bool renderLines = isHeader ? style.ShowVerticalHeaderLines : style.ShowVerticalCellLines;

        Rune symbol = renderLines ? Glyphs.VLine : (Rune)SeparatorSymbol;
        AddRune (col, row, symbol);
    }

    private bool ShouldRenderHeaders ()
    {
        if (TableIsNullOrInvisible ())
        {
            return false;
        }

        return Style.AlwaysShowHeaders || rowOffset == 0;
    }

    /// <summary>
    ///     Returns true if the <see cref="Table"/> is not set or all the columns in the <see cref="Table"/> have an
    ///     explicit <see cref="ColumnStyle"/> that marks them <see cref="ColumnStyle.Visible"/> <see langword="false"/>.
    /// </summary>
    /// <returns></returns>
    private bool TableIsNullOrInvisible ()
    {
        return Table == null
               || Table.Columns <= 0
               || Enumerable.Range (0, Table.Columns)
                            .All (
                                  c => (Style.GetColumnStyleIfAny (c)?.Visible ?? true) == false
                                 );
    }

    private bool? ToggleCurrentCellSelection ()
    {
        var e = new CellToggledEventArgs (Table, selectedColumn, selectedRow);
        OnCellToggled (e);

        if (e.Cancel)
        {
            return false;
        }

        if (!MultiSelect)
        {
            return null;
        }

        TableSelection [] regions = GetMultiSelectedRegionsContaining (selectedColumn, selectedRow).ToArray ();
        TableSelection [] toggles = regions.Where (s => s.IsToggled).ToArray ();

        // Toggle it off
        if (toggles.Any ())
        {
            IEnumerable<TableSelection> oldRegions = MultiSelectedRegions.ToArray ().Reverse ();
            MultiSelectedRegions.Clear ();

            foreach (TableSelection region in oldRegions)
            {
                if (!toggles.Contains (region))
                {
                    MultiSelectedRegions.Push (region);
                }
            }
        }
        else
        {
            // user is toggling selection within a rectangular
            // select.  So toggle the full region
            if (regions.Any ())
            {
                foreach (TableSelection r in regions)
                {
                    r.IsToggled = true;
                }
            }
            else
            {
                // Toggle on a single cell selection
                MultiSelectedRegions.Push (
                                           CreateTableSelection (
                                                                 selectedColumn,
                                                                 SelectedRow,
                                                                 selectedColumn,
                                                                 selectedRow,
                                                                 true
                                                                )
                                          );
            }
        }

        return true;
    }

    /// <summary>
    ///     Truncates or pads <paramref name="representation"/> so that it occupies a exactly
    ///     <paramref name="availableHorizontalSpace"/> using the alignment specified in <paramref name="colStyle"/> (or left
    ///     if no style is defined)
    /// </summary>
    /// <param name="originalCellValue">The object in this cell of the <see cref="Table"/></param>
    /// <param name="representation">The string representation of <paramref name="originalCellValue"/></param>
    /// <param name="availableHorizontalSpace"></param>
    /// <param name="colStyle">Optional style indicating custom alignment for the cell</param>
    /// <returns></returns>
    private string TruncateOrPad (
        object originalCellValue,
        string representation,
        int availableHorizontalSpace,
        ColumnStyle colStyle
    )
    {
        if (string.IsNullOrEmpty (representation))
        {
            return new (' ', availableHorizontalSpace);
        }

        // if value is not wide enough
        if (representation.EnumerateRunes ().Sum (c => c.GetColumns ()) < availableHorizontalSpace)
        {
            // pad it out with spaces to the given alignment
            int toPad = availableHorizontalSpace
                        - (representation.EnumerateRunes ().Sum (c => c.GetColumns ())
                           + 1 /*leave 1 space for cell boundary*/);

            switch (colStyle?.GetAlignment (originalCellValue) ?? Alignment.Start)
            {
                case Alignment.Start:
                    return representation + new string (' ', toPad);
                case Alignment.End:
                    return new string (' ', toPad) + representation;

                // TODO: With single line cells, centered and justified are the same right?
                case Alignment.Center:
                case Alignment.Fill:
                    return
                        new string (' ', (int)Math.Floor (toPad / 2.0))
                        + // round down
                        representation
                        + new string (' ', (int)Math.Ceiling (toPad / 2.0)); // round up
            }
        }

        // value is too wide
        return new (
                    representation.TakeWhile (c => (availableHorizontalSpace -= ((Rune)c).GetColumns ()) > 0)
                                  .ToArray ()
                   );
    }

    private bool TryGetNearestVisibleColumn (
        int columnIndex,
        bool lookRight,
        bool allowBumpingInOppositeDirection,
        out int idx
    )
    {
        // if the column index provided is out of bounds
        if (table is null || columnIndex < 0 || columnIndex >= table.Columns)
        {
            idx = columnIndex;

            return false;
        }

        // get the column visibility by index (if no style visible is true)
        bool [] columnVisibility =
            Enumerable.Range (0, Table.Columns)
                      .Select (c => Style.GetColumnStyleIfAny (c)?.Visible ?? true)
                      .ToArray ();

        // column is visible
        if (columnVisibility [columnIndex])
        {
            idx = columnIndex;

            return true;
        }

        int increment = lookRight ? 1 : -1;

        // move in that direction
        for (int i = columnIndex; i >= 0 && i < columnVisibility.Length; i += increment)
        {
            // if we find a visible column
            if (columnVisibility [i])
            {
                idx = i;

                return true;
            }
        }

        // Caller only wants to look in one direction and we did not find any
        // visible columns in that direction
        if (!allowBumpingInOppositeDirection)
        {
            idx = columnIndex;

            return false;
        }

        // Caller will let us look in the other direction so
        // now look other way
        increment = -increment;

        for (int i = columnIndex; i >= 0 && i < columnVisibility.Length; i += increment)
        {
            // if we find a visible column
            if (columnVisibility [i])
            {
                idx = i;

                return true;
            }
        }

        // nothing seems to be visible so just return input index
        idx = columnIndex;

        return false;
    }

    /// <summary>Unions the current selected cell (and/or regions) with the provided cell and makes it the active one.</summary>
    /// <param name="col"></param>
    /// <param name="row"></param>
    private void UnionSelection (int col, int row)
    {
        if (!MultiSelect || TableIsNullOrInvisible ())
        {
            return;
        }

        EnsureValidSelection ();

        int oldColumn = SelectedColumn;
        int oldRow = SelectedRow;

        // move us to the new cell
        SelectedColumn = col;
        SelectedRow = row;

        MultiSelectedRegions.Push (
                                   CreateTableSelection (col, row)
                                  );

        // if the old cell was not part of a rectangular select
        // or otherwise selected we need to retain it in the selection

        if (!IsSelected (oldColumn, oldRow))
        {
            MultiSelectedRegions.Push (
                                       CreateTableSelection (oldColumn, oldRow)
                                      );
        }
    }

    /// <summary>Describes a desire to render a column at a given horizontal position in the UI</summary>
    internal class ColumnToRender
    {
        public ColumnToRender (int col, int x, int width, bool isVeryLast)
        {
            Column = col;
            X = x;
            Width = width;
            IsVeryLast = isVeryLast;
        }

        /// <summary>The column to render</summary>
        public int Column { get; set; }

        /// <summary>True if this column is the very last column in the <see cref="Table"/> (not just the last visible column)</summary>
        public bool IsVeryLast { get; }

        /// <summary>
        ///     The width that the column should occupy as calculated by <see cref="CalculateViewport(Rectangle, int)"/>.  Note
        ///     that this includes space for padding i.e. the separator between columns.
        /// </summary>
        public int Width { get; internal set; }

        /// <summary>The horizontal position to begin rendering the column at</summary>
        public int X { get; set; }
    }

    bool IDesignable.EnableForDesign ()
    {
        DataTable dt = BuildDemoDataTable (5, 5);
        Table = new DataTableSource (dt);

        return true;
    }

    /// <summary>
    ///     Generates a new demo <see cref="DataTable"/> with the given number of <paramref name="cols"/> (min 5) and
    ///     <paramref name="rows"/>
    /// </summary>
    /// <param name="cols"></param>
    /// <param name="rows"></param>
    /// <returns></returns>
    public static DataTable BuildDemoDataTable (int cols, int rows)
    {
        var dt = new DataTable ();

        var explicitCols = 6;
        dt.Columns.Add (new DataColumn ("StrCol", typeof (string)));
        dt.Columns.Add (new DataColumn ("DateCol", typeof (DateTime)));
        dt.Columns.Add (new DataColumn ("IntCol", typeof (int)));
        dt.Columns.Add (new DataColumn ("DoubleCol", typeof (double)));
        dt.Columns.Add (new DataColumn ("NullsCol", typeof (string)));
        dt.Columns.Add (new DataColumn ("Unicode", typeof (string)));

        for (var i = 0; i < cols - explicitCols; i++)
        {
            dt.Columns.Add ("Column" + (i + explicitCols));
        }

        var r = new Random (100);

        for (var i = 0; i < rows; i++)
        {
            List<object> row = new ()
            {
                $"Demo text in row {i}",
                new DateTime (2000 + i, 12, 25),
                r.Next (i),
                r.NextDouble () * i - 0.5 /*add some negatives to demo styles*/,
                DBNull.Value,
                "Les Mise"
                + char.ConvertFromUtf32 (int.Parse ("0301", NumberStyles.HexNumber))
                + "rables"
            };

            for (var j = 0; j < cols - explicitCols; j++)
            {
                row.Add ("SomeValue" + r.Next (100));
            }

            dt.Rows.Add (row.ToArray ());
        }

        return dt;
    }
}
